新型抗菌棕榈油衍生蛇麻脂由酵母 nov. Starmerella riodocensis 产生，可抑制白色念珠菌菌丝和生物膜的形成。

Production of new antimicrobial palm oil-derived sophorolipids by the yeast Starmerella riodocensis sp. nov. against Candida albicans hyphal and biofilm formation.

机构信息

Gene Technology Laboratory, Biochemical Technology Division, School of Bioresources and Technology, King Mongkut's University of Technology Thonburi, 49, Tian Talay Road, Tha Kham, Bang Khuntian, Bangkok, 10150, Thailand.

出版信息

Microb Cell Fact. 2022 Aug 17;21(1):163. doi: 10.1186/s12934-022-01852-y.

DOI:10.1186/s12934-022-01852-y

PMID:35974372

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9382743/

Abstract

BACKGROUND

Microbial derived-surfactants display low eco-toxicity, diverse functionality, high biodegradability, high specificity, and stability under extreme conditions. Sophorolipids are emerging as key biosurfactants of yeast origins, used in various industrial sectors to lower surface tension. Recently, sophorolipid complexes have been applied in biomedicals and agriculture to eradicate infectious problems related to human and plant fungal pathogens. This study aimed to characterize the functional properties and antifungal activities of sophorolipids produced by a newly characterized Starmerella riodocensis GT-SL1R sp. nov. strain.

RESULTS

Starmerella riodocensis GT-SL1R sp. nov. strain was belonged to Starmerella clade with 93.12% sequence similarity using the ITS technique for strain identification. Sophorolipids production was examined, using co-carbon substrates glucose and palm oil, with a yield on the substrate between 30 and 46%. Using shake-flasks, the S. riodocensis GT-SL1R strain produced biosurfactants with an emulsification activity of 54.59% against kerosene compared to the S. bombicola BCC5426 strain with an activity of 60.22%. Maximum productivities of GT-SL1R and the major sophorolipid-producer S. bombicola were similar at 0.8 gl h. S. riodocensis GT-SL1R produced mixed forms of lactonic and acidic sophorolipids, shown by TCL, FTIR, and HPLC. Importantly, the complex sophorolipid mixture displayed antifungal activity against an opportunistic yeast pathogen Candida albicans by effectively reducing hyphal and biofilm formation.

CONCLUSIONS

Sophorolipids derived from S. riodocensis demonstrate potential industrial and biomedical applications as green surfactant and antifungal agent. Since numerous renewable bioresources and industrial wastes could be used by microbial cell factories in the biosynthesis of biosurfactants to reduce the production cost, sophorolipids hold a promising alternative to current antimicrobials in treatments against infectious diseases in humans, animals, and plants.

摘要

背景

微生物来源的表面活性剂具有低生态毒性、多功能性、高生物降解性、高特异性和在极端条件下的稳定性。槐糖脂是酵母来源的新兴关键生物表面活性剂，用于各种工业领域以降低表面张力。最近，槐糖脂复合物已应用于生物医学和农业领域，以消除与人类和植物真菌病原体相关的传染性问题。本研究旨在表征新鉴定的 Starmerella riodocensis GT-SL1R sp. nov. 菌株产生的槐糖脂的功能特性和抗真菌活性。

结果

基于 ITS 技术进行菌株鉴定，Starmerella riodocensis GT-SL1R sp. nov. 菌株属于 Starmerella 分支，序列相似度为 93.12%。使用共碳底物葡萄糖和棕榈油检测槐糖脂的生产，底物产率在 30%至 46%之间。在摇瓶中，与 S. bombicola BCC5426 菌株的 60.22%相比，S. riodocensis GT-SL1R 菌株产生的生物表面活性剂对煤油的乳化活性为 54.59%。GT-SL1R 和主要槐糖脂产生菌 S. bombicola 的最大生产力相似，均为 0.8 gl h。TCL、FTIR 和 HPLC 表明，S. riodocensis GT-SL1R 产生了混合形式的内酯和酸性槐糖脂。重要的是，复杂的槐糖脂混合物对机会性酵母病原体白色念珠菌表现出抗真菌活性，有效抑制了菌丝和生物膜的形成。

结论

来自 S. riodocensis 的槐糖脂具有作为绿色表面活性剂和抗真菌剂的潜在工业和生物医学应用。由于微生物细胞工厂可以在生物合成生物表面活性剂中使用众多可再生生物资源和工业废物来降低生产成本，因此槐糖脂有望替代当前针对人类、动物和植物传染病的抗菌药物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/78d6/9382743/05b025c35891/12934_2022_1852_Fig1_HTML.jpg

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新型抗菌棕榈油衍生蛇麻脂由酵母 nov. Starmerella riodocensis 产生，可抑制白色念珠菌菌丝和生物膜的形成。

Production of new antimicrobial palm oil-derived sophorolipids by the yeast Starmerella riodocensis sp. nov. against Candida albicans hyphal and biofilm formation.

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